2022-08-23 15:14:32 +00:00
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use bevy::{prelude::*, sprite::Mesh2dHandle};
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2022-08-24 06:35:05 +00:00
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use rand::Rng;
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2022-08-24 07:58:56 +00:00
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use rand_distr::{Distribution, UnitCircle};
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2022-08-24 06:35:05 +00:00
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pub const POOL_COUNT: usize = 100;
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pub const MIN_VELOCITY: f32 = 10.0;
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pub const MAX_VELOCITY: f32 = 100.0;
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pub const _VELOCITY_SCALE: f32 = 0.1;
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2022-08-24 06:35:05 +00:00
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pub const PARTICLE_EFFECT_RADIUS: f32 = 70.0;
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2022-08-23 15:14:32 +00:00
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pub struct ParticleEffectPlugin;
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impl Plugin for ParticleEffectPlugin {
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fn build(&self, app: &mut App) {
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app.init_resource::<ParticleMesh>()
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.insert_resource(ParticleEffectResource::new(Vec3::new(
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10000.0, 10000.0, 0.0,
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)))
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.add_startup_system(particle_effect_startup)
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.add_system(particle_effect_system);
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}
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2022-08-23 15:14:32 +00:00
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}
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pub struct ParticleMesh {
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square: Mesh2dHandle,
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}
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impl FromWorld for ParticleMesh {
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fn from_world(world: &mut World) -> Self {
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let mut meshes = world.get_resource_mut::<Assets<Mesh>>().unwrap();
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Self {
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square: meshes
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.add(Mesh::from(shape::Quad {
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size: Vec2 { x: 4.0, y: 4.0 },
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flip: false,
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}))
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.into(),
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}
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}
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}
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2022-08-24 06:35:05 +00:00
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#[derive(bevy_inspector_egui::Inspectable)]
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pub struct ParticleEffectResource {
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pub translation: Vec3,
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pub prev_translation: Vec3,
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pub radius_squared: f32,
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pub color: Color,
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}
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impl ParticleEffectResource {
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fn new(init_translation: Vec3) -> Self {
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Self {
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translation: init_translation,
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prev_translation: init_translation,
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radius_squared: PARTICLE_EFFECT_RADIUS * PARTICLE_EFFECT_RADIUS,
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color: Color::WHITE,
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}
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}
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}
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#[derive(Default, Component)]
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pub struct ParticleComponent {
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pub velocity: Vec3,
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}
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impl ParticleComponent {
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pub fn new() -> Self {
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let mut particle_component: Self = Self::default();
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particle_component.randomize_velocity(MIN_VELOCITY, MAX_VELOCITY);
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particle_component
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}
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pub fn randomize_velocity(&mut self, min_velocity: f32, max_velocity: f32) {
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let random_direction: [f32; 2] = UnitCircle.sample(&mut rand::thread_rng());
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let random_magnitude: f32 = rand::thread_rng().gen_range(min_velocity..max_velocity);
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self.velocity = Vec3::new(random_direction[0], random_direction[1], 0.0) * random_magnitude;
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}
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}
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fn particle_effect_startup(
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mut commands: Commands,
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particle_mesh: Res<ParticleMesh>,
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mut materials: ResMut<Assets<ColorMaterial>>,
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) {
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for _p in 0..POOL_COUNT {
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let color_mesh = ColorMesh2dBundle {
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mesh: particle_mesh.square.clone(),
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material: materials.add(ColorMaterial::from(Color::WHITE)),
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..default()
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};
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2022-08-24 07:58:56 +00:00
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commands
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.spawn_bundle(color_mesh)
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.insert(ParticleComponent::new());
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}
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}
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fn particle_effect_system(
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mut materials: ResMut<Assets<ColorMaterial>>,
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mut query: Query<(
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&mut Transform,
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&mut ParticleComponent,
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&Handle<ColorMaterial>,
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)>,
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mut particle_effect: ResMut<ParticleEffectResource>,
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time: Res<Time>,
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) {
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let delta_seconds: f32 = f32::max(0.001, time.delta_seconds());
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let delta_position: Vec3 = particle_effect.translation - particle_effect.prev_translation;
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// let overall_velocity: Vec3 = delta_position / delta_seconds;
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particle_effect.prev_translation = particle_effect.translation;
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for (mut transform, mut particle_component, color_material) in query.iter_mut() {
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// particle_component.velocity -= overall_velocity * VELOCITY_SCALE;
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transform.translation += particle_component.velocity * delta_seconds + delta_position;
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let squared_distance: f32 = transform
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.translation
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.distance_squared(particle_effect.translation);
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if squared_distance > particle_effect.radius_squared {
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transform.translation = particle_effect.translation;
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particle_component.randomize_velocity(MIN_VELOCITY, MAX_VELOCITY);
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}
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if let Some(material) = materials.get_mut(color_material) {
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material.color = particle_effect.color;
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material.color.set_a(
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(particle_effect.radius_squared - squared_distance)
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/ particle_effect.radius_squared,
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);
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}
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}
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}
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